Asphaltene agglomeration through physical-chemical and rheological testing

A better understanding of the changes in binder chemistry and microstructure triggered by aging is fundamental as it increases the cracking susceptibility of asphalt materials and reduces pavement durability. In this context, this paper presents the findings of a collaborative study that delves further into the alterations in binder chemistry, microstructure, and rheology of laboratory - and field-aged binders using innovative experimental and fundamental theory techniques. An increase in polarity leading to a shift in the apparent molecular weight distribution (AMWD) towards higher molecular weights, which implies molecular agglomerations, could be observed as a result of aging via Saturates, Aromatics, Resins, and Asphaltene Determinator (SAR-AD) and Size Exclusion Chromatography (SEC), respectively. As for the theoretical methods, the delta-method and Molecular Agglomeration Index (MAI) that estimate the AMWD and incidence of molecular agglomeration, respectively, show satisfactory relationship with the SAR-AD and SEC results. This reinforces the soundness of the delta-method and MAI.

Automated summary

Aging leads to an increase in polarity and higher molecular weight distribution in asphalt binders, indicating molecular agglomerations. The findings of this study show that the delta-method and MAI are reliable in estimating the changes in binder chemistry and molecular agglomeration. These results contribute to a better understanding of binder aging and its impact on pavement durability.